Mechanical Engineering

Mechanical Engineering is one of the oldest and most essential branches of engineering,
without which any industry cannot function. Right from the establishment of SRICT,
Mechanical Department was started in 2011 with intake of 60 students at UG level
and from 2015 department has started PG programme in Mechanical Engineering with
specialization in Thermal Engineering with intake of 18 students. Department has
19 experienced faculty members, out of which many faculty members have their degree
from IITs and NITs.

Over the years, Department has progress at rapid pace with development in both the
spheres of infrastructure facility and academic programme. Faculty members of department
are engaged in teaching, research and industrial consultancy works in the field
of mechanical engineering. Department regularly conducts industrial trainings, expert
lectures, seminars, workshops, technical competition for benefit of faculty as well
as student community.

Programme Educational Objectives (PEOs):

To develop readiness for profession and higher education programmes.(4)(2)

To promote creativity and innovation among students and faculties.(1)(5)

To develop entrepreneurial skill among the students.(1)

To produce responsible engineers who are honest & professional in their working
having ethical values.(3)(V)

To provide realistic learning opportunity to the students through in plant training,
industry defined projects(IDP), IV(Industrial visit), EL(Expert Lecture) and PLE(Peer
Learning Experience).(2)(4)

Program Outcomes

Acquire knowledge in the discipline of mechanical engineering, apply fundamentals
of mathematics, engineering and sciences to solve complex problems in multi-disciplinary
areas.

Design & development of mechanical components, systems and processesto meet societal,
environmental and global issues with the considerations of public health and safety.

Identify, formulate and solve engineering problems using modern mechanical approaches
in terms of design,manufacturing, computational and software tools.

Apply ethical and professional principles and commit to responsibilities and standards
of the engineering practice.

Communicate effectively in written, oral, graphical forms to present the results
in a transparent manner.

Possess knowledge of Engineering and management principles to work effectively as
a member or team leader in executing mechanical engineering projects under diverse
and multidisciplinary environments.

Develop ability to engage in lifelong learning to adapt new technological changes.

Participate in continuing education opportunities to remain active in the profession
and organizational growth.

Use research-based knowledge and research methods including literature survey, design
of experiments, analysis and interpretation of data, and compile information to
provide valid (sustainable) outcomes.

Apply appropriate techniques, resources, and modern Mechanical engineering tools
for modeling and analyzing complex engineering problems with an understanding of
the limitations.

Correlate knowledge of mechanical engineering with industrial practices and standards
by exposure to industries and institutions to enhance skills.

Apply reasoning informed by the contextual knowledge to assess societal, health,
safety, legal and cultural issues and the consequent responsibilities relevant to
the professional engineering practice.

Program Specific Outcomes

Graduates will demonstrate the ability to design a mechanical system or a thermal
system andfamiliar with modern mechanical engineering software tools and equipment
to analyze mechanical engineering problems& multidisciplinary projects that meets
desired specifications and requirements of the end users.

Graduates will be able to implement modern manufacturing practices and newer quality
tools enhancing the productivity and contributing to GDP growth.

Join a technically sophisticated workforce as successful professionals in a wide
spectrum of technical industries.

Pursue advanced degrees in engineering, business, or other professional fields by
applying written, oral, and graphical communication in both technical and non-technical
environments.

Apply knowledge of the impact of engineering technology solutions in a societal
and global context; and a commitment to quality, timeliness, and continuous improvement.